MONITORING THE KYOTO
PROTOCOL & BEYOND: Greenhouse Gases Observation &
the Global Forest Carbon
Monitoring System
IISL and ESCL Space Law Symposium 2008
Vienna, 1 April 2008
Masami Onoda
JAXA/Kyoto University
JAPAN
Contents
1. Introduction
2. Institutional Model
3. Systematic Observation
4. Potential Compliance Monitoring
4.1 GHG Observation
4.2 Forest Carbon Monitoring System
5. Legal & Institutional Implications
6. Conclusion
1. Introduction� Early forms of use of EO data in
international institutions: arms control
(NTM � Open Source info)
� Post Cold War: Emerging trend of cooperation to achieve international common interest = Transparency
� “Environmental monitoring” = general and core requirement to achieve transparency and reassurance, in decision-making & implementation/compliance of regime
Risk
Info Gathering
Policy based on scientific info
Acknowledge Risk
Decision Making
Measures:Reduction; Reporting etc.
(a) Environmental
Monitoring
(systematic
observation)
(b) Monitoring (compliance
monitoring/verification)
Managerial
framework by treaty
procedures
2. Institutional Model
3. Systematic Observation3.1 Requirements in Multilateral Environmental Treaty
§205, §206 (EIA)§200, §204UNCLOS (1982)
§8§4, §6, §7, §9LRTAP (1979)
§7§6Montreal Protocol (1987)
§14(EIA)§7、§12、§17、§18Biodiversity Convention
(1992)
§7、§8§10(d)Kyoto Protocol (1997)
§12§4.1(g)、§5UNFCCC (1992)
§26§16、17Desertification Convention
(1994)
§5、6§2.2(a)、§3、Annex IIVienna Convention (1985)
Compliance Monitoring
(self-reporting etc)
Research and Systematic
Observation (incl. monitoring
in general)
3.2 “Monitoring” to “Systematic Observation”
�Vienna Convention – First Conv. to use the term
[Art.1.3. “Monitoring” means a system of observations, collation of the results of these observations, and assessment and forecasting of change in the amount and vertical distribution of ozone and substances having a significant impact on the state of the ozone layer on the basis of factual data.] � Replaced by “SO”Revised Draft Convention for the Protection for the Ozone Layer, with Additional Commentary,UNEP/WG/78/10 (1983)
�UNFCCC• Calls for promotion and cooperation on SO (Art. 4.1(g), Art. 5) and in its Kyoto Protocol (Art. 10(d))
• Regular agenda item since SBSTA 17; COP 9 (Milan, December 2003) adopted decision on global observing systems for climate, calling for the preparation of an implementation plan for global climate observations to be coordinated by GCOS in collaboration with GEO; 10-year Implementation Plan reported at COP10.
�International Harmonisation of Space
Programmes & Data Policy
� International Earth Observing System (IEOS)
�CEOS/IGOS
�UN RS Principles, CEOS, WMO Data Principles
a common largest denominator at best…
�GEOSS
�WSSD Plan of Implementation
�G8, EO Summit
�GEOSS – “high-level", "political framework”
Is it sufficiently effective?
Need for a consistent & programmatic approach
3.3 International Institutions and SO
US.: Land Remote
Sensing Policy Act
(1992) etc
Europe: ESA Envisat
Data Policy (1998)
Canada: RADARSAT
Data Policy (1994)
Japan, France, Russia,
China, India, Korea
1. Satellite Earth observation is an integral part of
systematic observation, as an international
obligation (for ozone and climate change)
2. Coordination of the national law/policies and
programme planning is essential (appropriate
interface between international – national
institutions & instruments)
3. Synergy between space and environmental
policy and law is essential for the effective
application of space technologies (� 5.)
3.4 Potentials and Implications:
Systematic Observation
4. Potential Compliance Monitoring4.1 GHG Observation
http://www.satnavi.jaxa.jp/project/gosat/index.html
http://oco.jpl.nasa.gov/
GOSAT (Japan)
OCO (U.S.A.)
Contribute to environmental initiatives
� by monitoring global distribution of GHG (CO2
and CH4) and enhance future predictions on CC:Observe CO2 and CH4 columnar density
- during the Kyoto Protocol's first commitment period
- with relative accuracy of 0.3-1% (1-4ppm) for CO2 and 2% for CH4
-at 100-1,000km spatial scale (enhance to 56,000 points, from the
current 256 points)
� by estimating the source and sink of GHG at
sub-continental scale: Reduce sub-continental scale CO2 annual flux estimation errors by 1/5-
1/2 by combining with groundbased data and model
4.1.1 GOSAT Mission
4.1.2 UNFCCC Obligations
Commitment of all Parties (Art 4.1.): Make available national
inventories; formulate programmes; develop technologies; sustainable
management of sinks and reservoirs; cooperate in preparing for
adaptation; research and systematic observation; information
exchange; education and training; communication.
Annex I Parties shall (Art 4.2): Adopt national policies and
measures on mitigation of climate change, Communicate detailed
information.
Annex II Parties (OECD members) shall (Art 4.3): Provide new
and additional financial resources; transfer of technology.
The Conference of Parties shall (Art 4.2): Review the adequacy of
national policies and measures communicated.
4.1.3 Kyoto Protocol Obligationsa)Emissions reductionAnnex I Parties shall ensure GHG emissions do not exceed their assigned amounts, reduce
overall emissions by 5 % below 1990 levels in 2008-2012 (Art 3.1)
Removals by sinks from afforestation, reforestation and deforestation since 1990 shall be used.
(Art 3.3)
b) Emissions estimation, reporting and reviewAnnex I Parties shall have a national system for estimation of emissions by sources and
removals by sinks (Art 5.1); include in annual inventories and communications supplementary
information for ensuring compliance with Art 3 (Art 7.1&2).
Such information shall be reviewed by expert review teams. (Art. 8)
c) Research and systematic observationAll Parties shall cooperate in scientific and technical research and promote the maintenance
and the development of systematic observation systems and development of data archives to
reduce uncertainties related to the climate system… and promote the development and
strengthening of programmes and networks on research and systematic observation. (Art 10
(d))
d) Kyoto Mechanism (Art 6, 12, 17)
e) Non-compliance procedures (Art 18)
Commitments of all PartiesStabilization (FCC Art 4.1)
Emissions Reduction (KP Art 10)
Methodologies:Kyoto Mechanism;Non-compliance procedures
Climate Change Regime
Climate Change Regime
Commitments of Annex I PartiesAdopt policies and measures(FCCC Art 4.2)
Ensure emissions
reductions
(KP Art 3.1)
Emissions estimation
system
National inventories
and communication
(KP Art 7.1&2)
Review by COP(FCCC Art 4.2)(KP Art 8)
4.1.4 Relevance of EO in
FCCC/KP
Methodologies:Kyoto Mechanism;Non-compliance procedures
Climate Change Regime
Climate Change Regime
Commitments of Annex I PartiesAdopt policies and measures(FCCC Art 4.2)
Ensure emissions
reductions
(KP Art 3.1)
Emissions estimation
system
National inventories
and communication
(KP Art 7.1&2)
Review by COP(FCCC Art 4.2)(KP Art 8)
Commitments of all PartiesStabilization (FCC Art 4.1)
Emissions Reduction (KP Art 10)
4.1.4 Relevance of EO in
FCCC/KP
4.1.5 Potentials and Implications:
GHG Observation
�Science + policy focus of satellite EO
�However, capability of satellite EO is limited
in terms of “compliance” monitoring
• limitations of “inverse” modeling: difficulty to
calculate “causes (emissions)” from “results (sat
observation)”
• ��Treaty procedures based on “Forward”
calculation (IPCC guidelines)
EMISSION = ACTIVITIES x GWP
4.2 Forest Carbon Monitoring System
4.2.1 Kyoto Mechanism and EO
�As the Kyoto Protocol requires quantification of afforestation, reforestation and deforestation(ARD) (Art. 3.3) revegetation and land use management (Art. 3.4), and to establish a baseline of carbon stocks for 1990 (Art. 3.1), existing and historical remote sensing data could play an important role in supporting the establishment these information.
However,
�In the Clean Development Mechanism (CDM)projects for emission sinks, RS or GIS data is not being fully utilised, while IPCC Good Practice Guidance encourages the use of spatial data and the use of GIS for monitoring and evaluation of sinks
4.2.2 Reducing Emissions from
Deforestation & Degradation (REDD) �Proposed by Papua New Guinea at COP11 (2005). A
formal decision adopted at COP13 in Balhi;
�Emissions reduction from deforestation and forest
degradation can be compensated through carbon
credits from deliberate actions and policies;
�Expected to start as an international mechanism with
carbon market after 2012, providing incentives for
sustainable financing for forest conservation;
Demand for satellite data - Need to establish
means to accurately quantify baseline data and
monitor deforestation and degradation.
4.2.3 Forest Carbon Monitoring System
�A project of the Ministry of Environment of Japan in cooperation with national and international partners
�Develop a system for mapping and monitoring forest carbon stocks and changes, through synergetic use of in-situ networks and EO data;
�Assess the utility of ALOS PALSAR data to derive information on status of forest cover mapping and for identification and spatial quantification of changes in forest cover;
�Develop operational methodologies for forest monitoring and quantitative carbon accounting
Phase 1: Research: JFY 2008-2010
Phase 2: System Development: JFY 2011-2012
Phase 3: Operational implementation: JFY 2013 �
3-step carbon accounting method
Figure: Courtesy of NIES
ALOS PALSAR Mosaic
JAXA EORC, 2007
Green indicate natural forest, purple/pink show plantations and bare soil. Original data at 20 m.
4.2.4 Potentials and Implications: FCMS
�FCMS integrates political requirements and technological solutions into an operational treaty system;
�Need to identify what can be delivered in response to political framework of monitoring requirements;
�Data availability, cost, continuity are crucial; a single system is not sufficiently reliable in the implementation phase;
�Essential to achieve optimal institutional procedures & space system design; and
�Collaborative approach between developed and developing countries through treaty mechanisms, for sustainable forest conservation and emissions reduction.
5. Legal Implications5.1 Relevance to International Space Law
�OST (1967)(1) Free exploration and use of outer space (Art. 1)
(2) International cooperation (Art. 1,3,9)
(2) Due regard to interests of all other States (Art. 9)
�UN Remote Sensing Principles (1986)Benefit and interests of all countries �� Sovereignty
(1) Access rights: Property position of holder of data (IV) … left open
(2) Equality and equity: promotion of international cooperation “shall be based in each case on equitable and mutually acceptable terms.”(V); � � norm of equality in OST; “non-discriminatory basis” (XII) ; “cost terms”… left open
(3) Disclosure of RS environmental “information”… no mention of cost, leads that info obligations are established at no cost: environmental info is given special status of “public good”
�Improvement of environmental information is an
established objective of international
environmental law (Sands, 2003)
�Various supervisory techniques are adopted (including reporting, inspection, non-compliance
procedures, and “preventive global monitoring”)
�In the Vienna Convention and UNFCCC, satellite
data is referred to as part of systematic
observation, which countries must promote and
cooperate in, as treaty obligations
5.2 Relevance to International
Environmental Law
1. Satellite EO is an integral part of systematic observation required in UNFCCC/KP; for compliance monitoring satellite data is not fully utilised (i.e. gaps between S&T capabilities and treaty methodology); Co-production of political procedures and scientific capability is essential
2. For enhanced transparency with cost-effective, independent & reliable data, need to design environmental-space systems & political institutions involving non-state actors; where developed and developing countries work together in treaty mechanism with joint economic incentives; and with coordinated data rights and accessibility
6. Conclusions
�International space law is silent on these issues…